| Publication |
Sentence |
Publish Date |
Extraction Date |
Species |
| Shiyun Zhou, Lang Li, Liliang Gao, Zhiyuan Zhou, Jinyu Yang, Shurui Zhang, Tonglu Wang, Chunqing Gao, Shiyao F. Hybrid strategy in compact tailoring of multiple degrees-of-freedom toward high-dimensional photonics. Light, science & applications. vol 14. issue 1. 2025-04-21. PMID:40258805. |
in this study, we propose an intelligent hybrid strategy that enables the simultaneous and customizable manipulation of six dofs: wave vector, initial phase, spatial mode, amplitude, orbital angular momentum (oam) and spin angular momentum (sam). |
2025-04-21 |
2025-04-24 |
Not clear |
| Yue Chen, Haoran Chen, Xi Shen, Weizhao Chen, Yi Liu, Yizheng Wu, Zhe Yua. Orbital-Excitation-Dominated Magnetization Dissipation and Quantum Oscillation of Gilbert Damping in Fe Films. Physical review letters. vol 134. issue 13. 2025-04-18. PMID:40250362. |
the variation of orbitals in the intraband transitions provides an efficient channel to convert spin to orbital angular momentum with spin-orbit interaction. |
2025-04-18 |
2025-04-21 |
Not clear |
| Zhen Tao, Tian Qiu, Xuezhi Bian, Titouan Duston, Nadine Bradbury, Joseph E Subotni. A basis-free phase space electronic Hamiltonian that recovers beyond Born-Oppenheimer electronic momentum and current density. The Journal of chemical physics. vol 162. issue 14. 2025-04-14. PMID:40226852. |
moreover, the approach is inexpensive and can be immediately applied to simulations of chiral induced spin selectivity experiments (where the transfer of angular momentum between nuclei and electrons is considered critical). |
2025-04-14 |
2025-04-16 |
Not clear |
| Lijuan Sheng, Zixiao Xu, Yong Cao, Yawei Tan, Xiaohui Ling, Xinxing Zho. Effectively suppressed reflected photonic spin Hall effect. Nanophotonics (Berlin, Germany). vol 14. issue 7. 2025-04-12. PMID:40212747. |
the photonic spin hall effect can engender transverse spatial and angular displacements in both transmission and reflection, with significant applications in optical imaging, edge detection, and the development of spin-based nanophotonic devices. |
2025-04-12 |
2025-04-14 |
Not clear |
| Lijuan Sheng, Zixiao Xu, Yong Cao, Yawei Tan, Xiaohui Ling, Xinxing Zho. Effectively suppressed reflected photonic spin Hall effect. Nanophotonics (Berlin, Germany). vol 14. issue 7. 2025-04-12. PMID:40212747. |
in this study, we establish a quantitative correlation between the reflection coefficient and the transverse spatial and angular displacements of reflected light, as induced by the photonic spin hall effect, grounded in electromagnetic theory. |
2025-04-12 |
2025-04-14 |
Not clear |
| Hanchen Wang, Min-Gu Kang, Davit Petrosyan, Shilei Ding, Richard Schlitz, Lauren J Riddiford, William Legrand, Pietro Gambardell. Orbital Pumping in Ferrimagnetic Insulators. Physical review letters. vol 134. issue 12. 2025-04-11. PMID:40215529. |
in cr, the pumping signal is dominated by the negative spin hall effect rather than the positive orbital hall effect, indicating that orbital currents represent a minority of the total angular momentum current pumped from the magnetic insulator. |
2025-04-11 |
2025-04-14 |
Not clear |
| Ruidong Xia, Ying H. Prof Miles Padgett (OBE, FRS) from blue-sky research to real-world applications and challenges. Light, science & applications. vol 14. issue 1. 2025-04-08. PMID:40195293. |
early advancements distinguished oam from spin angular momentum (sam), leading to practical innovations such as optical tweezers and quantum entanglement. |
2025-04-08 |
2025-04-10 |
human |
| P Ben-Abdalla. Inverse Spin Thermal Hall Effect in Nonreciprocal Photonic Systems. Physical review letters. vol 134. issue 11. 2025-04-07. PMID:40192399. |
a transverse radiative heat flux induced by the gradient of spin angular momentum of photons in nonreciprocal systems is predicted. |
2025-04-07 |
2025-04-09 |
Not clear |
| P Ben-Abdalla. Inverse Spin Thermal Hall Effect in Nonreciprocal Photonic Systems. Physical review letters. vol 134. issue 11. 2025-04-07. PMID:40192399. |
this finding opens new avenues for thermal management and energy conversion with nonreciprocal systems through a localized and dynamic control of the spin angular momentum of light. |
2025-04-07 |
2025-04-09 |
Not clear |
| Sourav Banerje. Quantum analogous spin states to explain topological phase for guided waves in ultrasonic nondestructive evaluation. The Journal of the Acoustical Society of America. vol 157. issue 4. 2025-04-04. PMID:40183606. |
it is shown that even without geometric periodicity guided waves could still have the nonzero spin angular momentum (sam) density, which may appear from 14 different unique interactions of guided wave potentials. |
2025-04-04 |
2025-04-06 |
Not clear |
| Shuyue Feng, Christopher J Badalis, Camryn J Gloor, Xiaowei Zhong, Zijian Gan, Wei You, Andrew M Mora. Nonlinear optical signatures of spin relaxation in 2D perovskites. The Journal of chemical physics. vol 162. issue 13. 2025-04-02. PMID:40171926. |
although circularly polarized light can induce macroscopic spin polarizations in ensembles of quantum wells, the orientations of the angular momentum vectors associated with individual excitons generally randomize on sub-picosecond timescales in 2d-oihps with single lead-iodide layers. |
2025-04-02 |
2025-04-04 |
Not clear |
| Minho Choi, Andrea Alù, Arka Majumda. Observation of Photonic Chiral Flatbands. Physical review letters. vol 134. issue 10. 2025-03-28. PMID:40153635. |
distinct selectivity to the spin angular momenta of photons has garnered significant attention in recent years, for its relevance in basic science and for imaging and sensing applications. |
2025-03-28 |
2025-03-31 |
Not clear |
| Hao Jiang, Yan Zhang, Liheng An, Qinghai Tan, Xuran Dai, Yinzhu Chen, Weijin Chen, Hongbing Cai, Jintao Fu, Jesús Zúñiga-Pérez, Zhiwei Li, Jinghua Teng, Yang Chen, Cheng-Wei Qiu, Weibo Ga. Chiral light detection with centrosymmetric-metamaterial-assisted valleytronics. Nature materials. 2025-03-20. PMID:40108418. |
here we present a chiral light detector by utilizing valley materials to observe the spin angular momentum carried by chiral light. |
2025-03-20 |
2025-03-22 |
Not clear |
| Hao Jiang, Yan Zhang, Liheng An, Qinghai Tan, Xuran Dai, Yinzhu Chen, Weijin Chen, Hongbing Cai, Jintao Fu, Jesús Zúñiga-Pérez, Zhiwei Li, Jinghua Teng, Yang Chen, Cheng-Wei Qiu, Weibo Ga. Chiral light detection with centrosymmetric-metamaterial-assisted valleytronics. Nature materials. 2025-03-20. PMID:40108418. |
delicately designed centrosymmetric metamaterials that can preserve the sign of optical spin angular momentum and greatly enhance its intensity in the near field are harnessed as a medium to inject polarized electrons into valley materials, which are then detected by the valley hall effect. |
2025-03-20 |
2025-03-22 |
Not clear |
| Zhiqiang Zhu, Lu Cheng, Xiaoguang Xu, Kangkang Meng, Jingyan Zhang, Xiao Deng, Tao Zhu, Hualiang Lv, Renchao Che, Dingfu Shao, Delin Zhang, Yong Wu, Gang Zhang, Yong Jian. Orbital Angular Momentum Correlated Charge to Spin Conversion in Metallic Antiferromagnet. Advanced materials (Deerfield Beach, Fla.). 2025-03-17. PMID:40095411. |
orbital angular momentum correlated charge to spin conversion in metallic antiferromagnet. |
2025-03-17 |
2025-03-20 |
Not clear |
| Yue Sun, Bo Liu, Chee Kwan Gan, Shian Xia, Haoyun Lin, Sheng Liu, Ting Y. Strong and reciprocal magneto-phonon effects in a 2D antiferromagnetic semiconductor FePSe Nanoscale. 2025-03-17. PMID:40095570. |
two-dimensional (2d) magnetic systems are anisotropic in their magnetic order and may have magnons carrying spin angular momentum. |
2025-03-17 |
2025-03-20 |
Not clear |
| Samuel Mañas-Valero, Toeno van der Sar, Rembert A Duine, Bart van Wee. Fundamentals and applications of van der Waals magnets in magnon spintronics. Newton ((New York, N.Y.). vol 1. issue 1. 2025-03-10. PMID:40060326. |
spintronics is concerned with replacing charge current with current of spin, the electron's intrinsic angular momentum. |
2025-03-10 |
2025-03-12 |
Not clear |
| Maik Vossel, Iordanis Tsakontsis, Nicole Weike, Wolfgang Eisfel. Accurate incorporation of hyperfine coupling in diabatic potential models using the effective relativistic coupling by asymptotic representation approach. Physical chemistry chemical physics : PCCP. 2025-02-24. PMID:39989287. |
the corresponding operators can be expressed in terms of the angular momentum operators for nuclear spin |
2025-02-24 |
2025-02-26 |
Not clear |
| Zhi-Wei Lu, Liang Guo, Mamutjan Ababekri, Jia-Lin Zhang, Xiu-Feng Weng, Yuanbin Wu, Yi-Fei Niu, Jian-Xing L. Angular Momentum Resolved Inelastic Electron Scattering for Nuclear Giant Resonances. Physical review letters. vol 134. issue 5. 2025-02-21. PMID:39983168. |
exciting grs using particles like electrons is effective, yet the angular momentum (am) transfer of electrons, including both intrinsic spin and orbital degrees of freedom in inelastic scattering, has never been studied. |
2025-02-21 |
2025-02-24 |
Not clear |
| Pritam Khan, Grace Brennan, Syed A M Tofail, Ning Liu, Christophe Silie. Polarization Spin Inversion with Nonlinear Plasmon Scattering. ACS omega. vol 10. issue 5. 2025-02-17. PMID:39959038. |
we report on circularly polarized gaussian beam spin angular momenta that can be inverted upon scattering with quadrupole plasmon modes. |
2025-02-17 |
2025-02-23 |
Not clear |